Velocity and Acceleration Definitions of Velocity and Acceleration
- Slides: 14
Velocity and Acceleration
Definitions of Velocity and Acceleration •
1. The position vector r describes the path of an object moving in the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the given point (Similar to p. 856 #1 -10) Position Function Point (1, 2)
2. The position vector r describes the path of an object moving in the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the given point (Similar to p. 856 #1 -10) NEXT TIME Position Function Point (4, 16)
3. The position vector r describes the path of an object moving in the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the given point (Similar to p. 856 #1 -10) Position Function Point
4. The position vector r describes the path of an object moving in space. Find the velocity, speed, and acceleration of the object (Similar to p. 856 #11 -20) •
5. The position vector r describes the path of an object moving in space. Find the velocity, speed, and acceleration of the object (Similar to p. 856 #11 -20) •
6. The position vector r describes the path of an object moving in space. Find the velocity, speed, and acceleration of the object (Similar to p. 856 #11 -20) •
7. Use the given acceleration function to find the velocity and position vectors. Then find the position at time t = 2 (Similar to p. 856 #23 -28) •
8. Use the given acceleration function to find the velocity and position vectors. Then find the position at time t = 2 (Similar to p. 856 #23 -28) •
9. Use the given acceleration function to find the velocity and position vectors. Then find the position at time t = 5 pi/3 (Similar to p. 856 #23 -28) •
Position Function for a Projectile •
10. Use the model for projectile motion, assuming there is no air resistance (Similar to p. 856 #29 -44) Find the vector-valued function for the path of a projectile launched at a height of 20 feet above the ground with an initial velocity of 100 feet per second at an angle of 45 o above the horizontal.
11. Use the model for projectile motion, assuming there is no air resistance (Similar to p. 856 #29 -44) A baseball, hit 5 feet above the ground, leaves the bat at an angle of 30 o and is caught by an outfielder 5 feet above the ground and 200 feet from home plate. What is the initial speed of the ball, and how high does it rise?
- Final velocity initial velocity acceleration time
- Dynamics acceleration equation
- Angular vs linear velocity
- Angular acceleration and linear acceleration
- Tangential acceleration and centripetal acceleration
- Difference between velocity and acceleration example
- Velocity
- Acceleration quiz
- Speed velocity and acceleration problems
- Relative acceleration equation
- Position, velocity acceleration graphs practice
- Displacement and velocity worksheet
- Difference between velocity and acceleration
- Speed velocity acceleration
- Motion diagram